In-depth quantitative analysis of the microstructures produced by Surface Mechanical Attrition Treatment (SMAT)

Electron BackScattered Diffraction (EBSD) maps are used to characterize quantitatively the graded microstructure formed by Surface Mechanical Attrition Treatment (SMAT) and applied here to the 316L stainless steel. In particular, the analysis of GNDs - coupled with relevant and reliable criteria - w...

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Published inMaterials characterization Vol. 83; pp. 129 - 138
Main Authors SAMIH, Y, BEAUSIR, B, BOLLE, B, GROSDIDIER, T
Format Journal Article
LanguageEnglish
Published New York, NY Elsevier 01.09.2013
Subjects
Applied sciences
Attrition
Austenitic stainless steels
BACKSCATTERING
Chemical Sciences
Cross-disciplinary physics: materials science; rheology
Deformation
DENSITY
Electron back scatter diffraction
ELECTRON DIFFRACTION
Engineering Sciences
Exact sciences and technology
GRAIN REFINEMENT
Grains
Heat resistant steels
LAYERS
Material chemistry
MATERIALS SCIENCE
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
MICROSTRUCTURE
Phase diagrams and microstructures developed by solidification and solid-solid phase transformations
Physics
PLASTICITY
Quantitative analysis
Solidification
STAINLESS STEELS
SURFACES
THICKNESS
Vibration
Grain size
Chemical analysis
Electron diffraction
Mechanical properties
Surface treatments
Plastic deformation
SMAT
Stainless steels
EBSD
Mechanical treatment
Stainless steel
Microstructure
GND
Grain refinement
Quantitative chemical analysis
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Abstract Electron BackScattered Diffraction (EBSD) maps are used to characterize quantitatively the graded microstructure formed by Surface Mechanical Attrition Treatment (SMAT) and applied here to the 316L stainless steel. In particular, the analysis of GNDs - coupled with relevant and reliable criteria - was used to depict the thickness of each zone identified in the SMAT-affected layers: (i) the "ultrafine grain" (UFG) zone present at the extreme top surface, (ii), the "transition zone" where grains were fragmented under the heavy plastic deformation and, finally, (iii) the "deformed zone" where initial grains are simply deformed. The interest of this procedure is illustrated through the comparative analysis of the effect of some SMAT processing parameters (amplitude of vibration and treatment duration). The UFG and transition zones are more significantly modified than the overall affected thickness under our tested conditions.
AbstractList Electron BackScattered Diffraction (EBSD) maps are used to characterize quantitatively the graded microstructure formed by Surface Mechanical Attrition Treatment (SMAT) and applied here to the 316L stainless steel. In particular, the analysis of GNDs - coupled with relevant and reliable criteria - was used to depict the thickness of each zone identified in the SMAT-affected layers: (i) the ``ultrafine grain'' (UFG) zone present at the extreme top surface, (ii), the ``transition zone'' where grains were fragmented under the heavy plastic deformation and, finally, (iii) the ``deformed zone'' where initial grains are simply deformed. The interest of this procedure is illustrated through the comparative analysis of the effect of some SMAT processing parameters (amplitude of vibration and treatment duration). The UFG and transition zones are more significantly modified than the overall affected thickness under our tested conditions.
Electron BackScattered Diffraction (EBSD) maps are used to characterize quantitatively the graded microstructure formed by Surface Mechanical Attrition Treatment (SMAT) and applied here to the 316L stainless steel. In particular, the analysis of GNDs – coupled with relevant and reliable criteria – was used to depict the thickness of each zone identified in the SMAT-affected layers: (i) the “ultrafine grain” (UFG) zone present at the extreme top surface, (ii), the “transition zone” where grains were fragmented under the heavy plastic deformation and, finally, (iii) the “deformed zone” where initial grains are simply deformed. The interest of this procedure is illustrated through the comparative analysis of the effect of some SMAT processing parameters (amplitude of vibration and treatment duration). The UFG and transition zones are more significantly modified than the overall affected thickness under our tested conditions. - Highlights: • EBSD maps are used to characterize quantitatively the microstructure of SMAT treated samples. • Calculation of the GND density to quantify strain gradients • A new method to depict the different zone thicknesses in the SMAT affected layer • Effects of SMAT processing parameters on the surface microstructure evolution.
Author BEAUSIR, B
GROSDIDIER, T
SAMIH, Y
BOLLE, B
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  givenname: T
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Keywords Grain size
Chemical analysis
Electron diffraction
Mechanical properties
Surface treatments
Plastic deformation
SMAT
Stainless steels
EBSD
Mechanical treatment
Stainless steel
Microstructure
GND
Grain refinement
Quantitative chemical analysis
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Snippet Electron BackScattered Diffraction (EBSD) maps are used to characterize quantitatively the graded microstructure formed by Surface Mechanical Attrition...
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SubjectTerms Applied sciences
Attrition
Austenitic stainless steels
BACKSCATTERING
Chemical Sciences
Cross-disciplinary physics: materials science; rheology
Deformation
DENSITY
Electron back scatter diffraction
ELECTRON DIFFRACTION
Engineering Sciences
Exact sciences and technology
GRAIN REFINEMENT
Grains
Heat resistant steels
LAYERS
Material chemistry
MATERIALS SCIENCE
Mechanical properties and methods of testing. Rheology. Fracture mechanics. Tribology
Metals. Metallurgy
MICROSTRUCTURE
Phase diagrams and microstructures developed by solidification and solid-solid phase transformations
Physics
PLASTICITY
Quantitative analysis
Solidification
STAINLESS STEELS
SURFACES
THICKNESS
Vibration
Title In-depth quantitative analysis of the microstructures produced by Surface Mechanical Attrition Treatment (SMAT)
URI https://search.proquest.com/docview/1642265563
https://hal.univ-lorraine.fr/hal-01501658
https://www.osti.gov/biblio/22285084
Volume 83
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